#Unmanned System | Applications
#Aerodyne | Research and development services
#Aerovironment | Unmanned Aircraft Systems, Unmanned Aerial Vehicles
#Bayraktar | Bayraktar TB2 | Tactical Armed UAV System Platform | Ground Control Station | Ground Data Terminal | Remote Display Terminal | Advanced Base with Generator and Trailer modules | Medium Altitude Long Endurance (MALE), Tactical Unmanned Aerial Vehicle | Conducting Intelligence, Surveillance and Reconnaissance (ISR) and armed attack missions | Onboard avionic suite with a triple redundant avionic system | Fully autonomous taxiing, take-off, landing and cruise | 18,000 Feet Operational Altitude | 27 Hours Maximum Airtime | Fully Automatic Flight Control | 3 Redundant Autopilot System (Triple Redundant) | Fully Automatic Landing and Take-off Feature Without Dependence on Ground Systems | Navigation with Internal Sensor Fusion Without Dependency on GPS | 25,000 Feet Max Altitude | 105 Hp Internal Combustion Injection Engine | 300 Liters Gasoline tank | 4 Laser Guided Smart Ammunition | 150 kg payload | 70 knot - 120 knot speed | <300 km communication range | Baykar Real Time Imagery Transmission System (BGAM) | BGAM allows users to watch live broadcasts securely on the network or on tablets using the mobile application via internet | Users can take multi tag notes on the system | Saved tags and labels will facilitate the search through archive videos | Mission log can be created and then exported
#UADynamics | Long range artillery or missile weapons
#Ouster | High-resolution lidar sensors for long, mid, and short range applications | Smart infrastructure | Autonomous machines | Robotics applications | Digital lidar architecture | Digital device powered by a fully custom silicon CMOS chip
#ColdChain Delivery Systems | Temperature controlled air freight solutions for pharmaceutical shipments
#Aquiline Drones | Autonomous drones
#Advanced Navigation | AI-based marine navigation systems | AI-Based underwater navigation solutions and robotics technology | Hydrography | Underwater acoustic positioning solutions | Autonomous Underwater Vehicle (AUV) | Inertial navigation systems (INS) | Sidney, Australia
#Nordic Drones | Drone pilot trainer and manufacturer of drones
#General Atomics | Unmanned Aircraft Systems and Sensors
#Lockheed Martin | Unmanned technologies
#Raytheon | Unmanned, uncrewed systems
#Aerorozvidka | Netcentric and robotic military capabilities
#Parrot Drone | Professional Drones
#Elsight | Turnkey uncrewed aircraft systems (UAS) service solutions | Certificate of Waiver (CoW) for BVLOS drone operations from the FAA | small Unmanned Aircraft Systems (sUAS) | Air Methods | US hospitals | Medical services | Overcoming challenges of inefficient ground operations
#Vicor | Modular power systems
#AARTOS | Drone Detection System
#Elbit | Comprehensive range of UAS
#UVision | Lethal loitering solutions
#L3Harris | C6ISR systems and products
#Nordic Unmanned | Drone services and products
#UAS Europe | Ground Control Station (GCS) solutions
#UAVTEK | Unmanned aerial and ground systems
#UAV Engines Ltd | Engines for small & medium sized UAVs
#Vulcan UAV | Multi copter design, development and manufacturing
#Hemav | Crop forecasting models
#Alerion | Autonomous navigation systems
#Aeorum | Drone fleet sensors
#Insylo | Feed and livestock industry
#Wingcopter | Delivery drone
#Spot robot | Radiation mapping autonomously | Gamma ray sensors | Personal dosimeters | Neutron detection | Alpha inspection with pancake sensors| Ability to withstand large amounts of radiation | Cabability to carry a variety of radiation detection payloads | Ongoing safe operation and eventual decommissioning of nuclear power plants | Machine learning algorithms | AI | Boston Dynamics
#Manna | Drone Delivery
#JAKA Robotics | Graphic Programming | Set and adjust positions and tasks with ease | Drag Teaching | Moving the cobot to any position, and it will memorize it instantly | JAKA APP | Teaching the robot | Remote Monitoring | Monitor robot tasks and set alerts
#Structural color | Chameleon like, color shifting materials | Stretching a piece of film to reveal a hidden message | Checking an arm band color to gauge muscle mass | Sporting a swimsuit that changes hue as one does laps | Elastic materials that when stretched can transform their color | Printed films revealing the imprint of objects | Structural color arising as a consequence of a material microscopic structure | Robotic skin that has a human like sense of touch | Devices for things like virtual augmented reality or medical training | University of Cambridge | The Gillian Reny Stepping Strong Center for Trauma Innovation at the Brigham | Women Hospital | National Science Foundation | MIT Deshpande Center for Technological Innovation | Samsung | MIT ME MathWorks seed fund | MIT
#MassRobotics | Ori | Ikea | Boston Seaport District | Amazon | Google | Mitsubishi Electric | Computer Science and Artificial Intelligence Laboratory (CSAIL) at MIT | Cybernetix Ventures
#SICK | Traffic sensors | Safety radar sensors | Safety light beam sensors | Safety camera sensors | Pattern sensors | Non contact motion sensors | Magnetic cylinder sensors | Luminescence sensors | Inertial sensors | Inductive proximity sensors | Glare sensors | Fork sensors | Fluid sensors | Fiber optic sensors | Distance sensors | Contrast sensors | Color sensors | Capacitive and magnetic proximity sensors | Array sensors
#VARTA | Application Specific Batteries (ASB) | Energy Solutions
#GAM | Robotic and servo gear | GPL Robotic Planetary | GCL Cycloidal | GSL Strain Wave | Precision Rack & Pinion | Linear Mount Products for Cartesian Robots
#AiFi | Autonomous retail | Cashierless AI powered retail solution | AiFi app | Computer vision | AI learning about scenarios | Simulated environments to train the AI algorithms and the models | Calibration algorithms allowing to recreate the shopping environment in 3D | Cameras tracking customers throughout their shopping journey
#Viasat | Secure defense communication system | Integrated defense satellite communications | SATCOM terminal | Link 16 radio | Electronic warfare (EW) resistant network | Integrated tactical networking | Geostationary satellites
#Case IH | Raven Industries | Autonomous spreader | Guidance and steering, propulsion control | perception | path planning | mobile device managed | mapped field boundaries | advanced cameras and radar system | constantly sensing a 360-degree environment | artificial intelligence | perception controller processes the continuous stream of images | remote operator can view the cameras | obstacle alerted on the mobile device
#ICEYE | Synthetic aperture radar (SAR)
#Robotics Engineering | Intelligent Sensing for Object Recognition, Manipulation and Control | Design, Development and Simulation Tools for Robotics Development | Developing Intelligent Robots - Machine Learning on Edge, Cloud and Hybrid Architectures | Advanced Motion Control Solutions for Robotics Systems | Intelligent Vision and Sensing Solutions for Autonomous Mapping and Navigation | Motion Control for Healthcare Robotics Applications: Functional Requirements, Critical Capabilities
#NVIDIA | Mission Client | Isaac ROS GitHub | ROS 2 Humble | Nav2 navigation stack | OTTO Motors | InOrbit | VDA5050 Connector | MQTT | OASIS standard messaging protocol for Internet of Things (IoT) applications | Open Robotics
#Titra | Alpin unmanned helicopter | In regional priority investment list of Ankara | Military, civilian and rescue missions | Design based on the manned Italian Heli-Sport CH 7 ultralight chopper | UAVOS | Length 7 m | Width 1.5 m | Height 2.35 m | Rotor diameter 6.28 m | Empty weight 340 kg | Can be easily transported in a vehicle | Maximum payload of 200 kg including fuel | Wideband satellite communication channel | Fully redundant autopilot system aboard | Fully autonomous take off and landing system | Remote ground control network capability | Autorotation landing capability | High efficiency flight control | Hyper spectral, synthetic aperture radar (SAR) | Electro optical/infrared (EO/IR) cameras | Rotax 914 UL engine | 115 hp | Maximum cruise speed 160 km/h | Maximum range of 840 km | Altitudes of up to 5,000 m | Maximum endurance seven hours | Two hours flight time fully loaded
#General Atomics | Air to Air Laser Communication System | Crosslinks from aircraft to other platforms such as unmanned aircraft, maritime vessels, and space systems
#Percepto | Autonomous site inspection and monitoring | Autonomous drones and robots | Insight Manager | Deeplearning algorithms to deliver industry specific intelligence | Solar construction progress monitoring | Stockpile volumetric measurement | Pipeline integrity inspection | 2D mapping | 3D modeling | Automated inspections
#Catepillar | Cat Command for Excavating | Remote control system | Cat Command station | Non line of sight remote control | Improving machine productivity | Fast restart of operations | Virtual cab with familiar controls and machine displays | Up to five different machines controlled by one user | Access to machine setting just like in the machine | Solution to workforce shortages | Training advantages for newer operators | Opportunities to those with physical limitations | Attracts a new generation of workers | Increases the longevity of experienced operators
#SatelIoT | IoT connectivity over standard 5G NB-IoT
#Artemis | NASA | ESA | Uncrewed test flight
#Jetson Orin Modules | NVIDIA | Advanced robotics and edge AI applications | Manufacturing | Logistics | Retail | Service | Agriculture | Smart city | Healthcare | Life sciences
#NATO | Innovation Fund | Defence Innovation Accelerator for the North Atlantic (DIANA) | Dual use emerging technologies of priority to NATO | Artificial intelligence | Quantum enabled technologies | Autonomy | Biotechnology |Novel materials | Energy | Propulsion | Space
#WWF | Halting and reversing biodiversity loss | Conserving land, freshwater and ocean globally | Protection of intact ecosystems | Tackling unsustainable production | Eliminating subsidies harmful to nature | Reducing the unsustainable footprint of production and consumption
#Seakit International | MaxLimer | Uncrewed surface vessel
#Elroy Air | Autonomous cargo aircraft systems| Vertical take off and landing (VTOL) cargo aircraft | Specially designed aerodynamic modular cargo pods | Commercial logistics | Disaster relief | Firefighting | Humanitarian operations | Replacing difficult ground transportation | Detachable pod | Dropping off cargo | Pickkung up ready to go cargo | Makint deliveries fast | Allowing ground crew to empty or load a pod at their leisure
#SeaRobotics | Unmanned Marine Systems & Engineering | Autonomous Surface Vehicles | Sensor suites
#Pegasus Airborne Systems | UAV Geophysics | Airborne geophysical industry | Low noise, ultra high-resolution UAV magnetic surveys | Mining, exploration and environmental sectors | PAS H260: HEAVY LIFT, Blade Diameter: 3.5m, MTOW: 120kg, Max Payload: 45kg, Terrain Drape: Yes, Survey Speed: 20 m/s, Max Wind Tolerance: <10 m/s, Power Source: ICE (ULP), Survey Endurance: 3 hours | PAS-H120: Medium LIFT, Blade Diameter: 2.3m, MTOW: 40kg, Max Payload: 15kg, Terrain Drape: Yes, Survey Speed: 20 m/s, Max Wind Tolerance: <10 m/s, Power Source: ICE (ULP), Survey Endurance: 2.5 hours | PAS-H100: Medium LIFT, Blade Diameter: 1.8m, MTOW: 25kg, Max Payload: 10kg, Terrain Drape: Yes, Survey Speed: 25 m/s, Max Wind Tolerance: <10 m/s, Power Source: ICE (ULP)Survey Endurance: 2.5 hours
#IEEEE | Recurrent Vision Transformers for Object Detection with Event Cameras
#University of Zurich | Recurrent Vision Transformers (RVTs) for object detection with event cameras | Reducing inference time
#Destinus | Afterburners | Hypersonic drone | Hydrogen-powered hypersonic flight | Swiss aerospace start-up | Liquid hydrogen-fuelled ramjet | Unmanned subscale prototypes Jungfrau (Destinus-1) and Eiger (Destinus-2) | Prototypes serve as testing platforms for evaluating and refining designs and systems intended for hypersonic aircraft | Supersonic drone powered by hydrogen
#Wingcopter | Drone Delivery Solutions for humanitarian & commercial applications | Delivery of spare parts, samples or other materials either on or between factory sites | On-Demand Medical Delivery | On-demand transport of pigment samples
#Phenix Solutions | Unmanned helicopters for cargo
#CORVO | Corvo Precision Payload Delivery System - Heavy Lift (PPDS-HL) | Low-cost disposable SUAS | Optimised for use in a wide variety of roles in modern battlespace | Cardboard drone | Cheap | Comes flat-packed | Can be built in an hour | Disposable UAS | Designed to be deployed into theatre in a flat pack configuration | Soldier can assemble system easily with minimal tools, load payload, program avionics module with target location and launch air vehicle | Wingspan: 2m | Empty weight: 2.4 kg | Payload capacity: 3 kg | Endurance: 1 - 3 hours | Range: 40 - 120 km | Cruise speed: 60 km/h | Launch: hand launce or catapult | Recovery: belly landing
#CHCNAV | Unmanned surface vessels (USVs) | Hydrographic surveys | Environmental monitoring | Designed to access waters too shallow for traditional manned survey vessels or difficult to access | Marine drones | Single or multibeam echo sounders | GNSS RTK receivers
#SEA.AI App | Detecting floating objects early | Using thermal and optical cameras to catch unsignalled craft, floating obstacles, containers, buoys, inflatables, kayaks and persons over board
#Macquarie Rotorcraft | helicopter
#Anybotics | Workforce App | Operate ANYmal robot from device | Set up and review robot missions | Industrial Inspection
#Fincantieri | Underwater Armament Systems (UAS) | Torpedo and sonar business | Underwater acoustic technology | Solutions for underwater civil infrastructure | Target underwater market estimated to have a €100bn cumulative value between 2024-28 | Underwater domain holding strategic importance in tMediterranean Sea | Dense critical infrastructure | Intelligence, surveillance and reconnaissance (ISR) | Underwater technological autonomy
#IDS | Industrial image processing | 3D cameras | Digital twins can distinguish color | Higher reproducible Z-accuracy | Stereo cameras: 240 mm, 455 mm | RGB sensor | Distinguishing colored objects | Improved pattern contrast on objects at long distances | Z accuracy: 0.1 mm at 1 m object distance | SDK | AI based image processing web service | AI based image analysis
#Flyability | Drones for industrial inspection and analysis | Confined space inspection | Collision and crash resistant inspection drone | 3D mapping | Volumetric measurement | Inspections of cargo ships, bridges, ports, steel mills cement factories, liquid gas tanks, nuclear facilities, city wide underground sewage systems | Ouster lidar
#Yamaha Marine | 450 hp hydrogen-powered V-8 outboard | Three 6-foot-long cylindrical-shaped hydrogen fuel tanks | H2 machine operates by using hydrogen in its combustion chambers | H2 tanks are positioned low and centrally to enhance stability | H2 tanks size demands rethinking of future boat designs, hulls specifically tailored for hydrogen storage | Hydrogen storage system adds considerable weight to vessel | Volumetric energy density of hydrogen is lower, requiring larger tanks | Partners: Roush Performance, Regulator Marine
#Google DeepMind Technologies Limited | Creating advanced AI models and applications | Artificial intelligence systems ALOHA Unleashed and DemoStart | Helping robots perform complex tasks that require dexterous movement | Two-armed manipulation tasks | Simulations to improve real-world performance on multi-fingered robotic hand | Helping robots learn from human demonstrations | Translating images to action | High level of dexterity in bi-arm manipulation | Robot has two hands that can be teleoperated for training and data-collection | Allowing robots to learn how to perform new tasks with fewer demonstrations | Collectung demonstration data by remotely operating robot behavior | Applying diffusion method | Predicting robot actions from random noise | Helpung robot learn from data | Collaborating with DemoStart | DemoStart is helping new robots acquire dexterous behaviors in simulation | Google collaborating with Shadow Robot
#Tampere University | Pneumatic touchpad | Soft touchpad sensing force, area and location of contact without electricity | Device utilises pneumatic channels | Can be used in environments such as MRI machines | Soft robots | Rehabilitation aids | Touchpad does not need electricity | It uses pneumatic channels embedded in the device for detection | Made entirely of soft silicone | 32 channels that adapt to touch | Precise enough to recognise handwritten letters | Recognizes multiple simultaneous touches | Ideal for use in devices such as MRI machines | If cancer tumours are found during MRI scan, pneumatic robot can take biopsy while patient is being scanned | Pneumatic device can be used in strong radiation or conditions where even small spark of electricity would cause serious hazard
#Amazon | Drone delivery service | Item that weighs five pounds or less | Delivered by drone in under an hour | Household products and office / tech supplies eligible for drone delivery | Drones have received FAA approval | Beyond visual line of sigh | Shift toward zero-emission package delivery | Phoenix Metro Area, NV, USA